Mantis combines the viewing ease of bench
magnifiers with the high resolution of a microscope.
Bench magnifiers have magnification and resolution limitations, while
conventional-eyepiece systems are inherently difficult to use.The Mantis large viewing area promotes maximum comfort while producing
razor sharp, three dimensional stereo images.
Operators will no longer suffer from eye, neck or back strain commonly
associated with eyepiece technologies.

Reduced
Eyestrain and Operator Fatigue

Magnification Range 2x - 10x

More
than 100,000 Installed Units Worldwide

Long
Working Distances allows for easy inspection and manipulation

Lynx Stereo Optical Inspection System

Introduced in
1999, the Lynx has quickly become the most sought after stereo zoom microscope
on the market.The eyepieceless viewer enables
unmatched freedom of head and body position, eliminating operator fatigue, due
to an exit pupil 64x larger than traditional eyepiece microscopes. This produces
a high-resolution image over a large viewing area. Glasses
or contact lenses may also be worn in comfort during use.A variety of objectives and multipliers complement the 6:6 to 1
zoom-ratio offering a combination of magnification up to 120x and working
distances to suit requirements.

Reduced Eyestrain and Operator Fatigue

Increased Throughput

Improved Fault Detection

Reduced Scrap Rates

Switchable 360 Angled View

7-120x Magnification

Alpha Stereo Optical Inspection System

The Alpha Stereo Binocular Microscope utilises Vision Engineering's patented
ISIS Exit Pupil Expansion technology to provide up to 10x greater freedom of
head position than conventional binocular eyepiece systems.ISIS technology expands the available optical pupil by means of
multilenticular optical surfaces, allowing the operator more than 38mm of head
freedom from the eyepieces.

Alpha eliminates
the need for users to precisely align their eye with the centre of each
eyepiece. A small movement of the eye no longer means losing part of the field
of vision, as the pupil easily stays within the latitude of the
twelve-times-wider exit ray bundle.Users can simply
move their eyes to view the full image area, rather than repositioning their
heads or the workpiece to operate within the constraints of a narrow
conventional exit field.